Team:CIDEB-UANL Mexico/math overview

When Biology Meets Math

For iGEM projects, the use of mathematical models is performed to describe the behavior of biological systems, representing the quantitative relations between two or more variables involved in the function of gene(s) in organisms as E. coli.

Our team decided to use a deterministic model to simulate and represent the functioning of the four modules assuming that the variables (mRNA and protein concentrations) adopt a continuous behavior and obey kinetic rules that can be represented with constant values (Loera, 2012).

This type of mathematical model is used to involve variables that abstract both the gene expression and physiological cycles (chemical process, transport of proteins, etc.). By the use of traditional differential equations we were able to construct the description and analyze the behavior of mRNAs and proteins production. We were focused in determine through a mathematical model of the four modules (one per each): Capture, Aroma, Resistance and Union.

Deterministic Modelling: Equations and Parameters

As it was established previously, is necessary work with different equations focusing in the production rate and degradation rate according to the length of genes in each module of the project. This is performed in order to obtain both the concentration rates of mRNA and protein based on system (gene) length and protein length respectively.

Equations

● mRNA

Generally, to describe the amount of mRNA produced over t time, the equation implemented is shown below:

Where: “a1” means the transcription rate of a givengene; “fy” represents a regulatory function (if there is) that can activate or inhibit the system; and “d1[mRNA]” the degradation rate of the mRNA produced.